MOTUL RBF 660 Factory Line Brake Fluid – 500ml | Racing-Grade Brake Fluid for Maximum Performance

Description:

MOTUL RBF 660 Factory Line Brake Fluid is a high-performance, racing-grade fluid designed to meet the demanding needs of motorsport applications. With an extremely high dry boiling point of 325°C, this brake fluid is formulated to resist fade and maintain maximum braking efficiency even under the most extreme conditions. Ideal for high-performance vehicles, track days, and racing applications, it delivers the ultimate braking performance with optimal safety and reliability.

Key Features:

✔ Extra-High Boiling Point – Boiling point of 325°C (617°F) dry and 204°C (399°F) wet to ensure consistent braking performance under extreme conditions.
✔ Moisture Resistance – Excellent resistance to moisture absorption, preventing brake fade and corrosion.
✔ Non-Silicone Formula – Designed for racing and performance applications where absolute brake fluid reliability is critical.
✔ Superior Stability – Maintains stability at both low and high temperatures.
✔ Perfect for Racing – Ideal for motorsport applications such as track days and competitive racing.

Compatibility:

MOTUL RBF 660 Factory Line Brake Fluid is compatible with:

• Racing and high-performance vehicles that require a high-performance DOT 4 brake fluid.

• Track day enthusiasts and professional drivers.

• Passenger cars, motorcycles, and motorsport vehicles with hydraulic braking systems.

📌 Note: Ensure to check your vehicle’s manual to confirm compatibility with DOT 4 fluid. Always use with compatible systems.

Recommended Use:

• Replace brake fluid regularly, especially after long periods of track use.

• Use for high-performance vehicles requiring DOT 4 brake fluid.

• Ensure fluid is topped up and within the recommended level before track events or competitive driving.

Technical Specifications:

• Volume: 500ml

• Type: DOT 4 Racing Brake Fluid

• Dry Boiling Point: 325°C (617°F)

• Wet Boiling Point: 204°C (399°F)

• Viscosity: Ensures consistent braking performance in both extreme heat and low temperatures.